Granular flow and thermal performance of Moving Bed Heat Exchangers: Comparison of the Euler-Euler model with experimental results
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1 Chart 1 12th Multiphase Flow Conference November Dresden Granular flow and thermal performance of Moving Bed Heat Exchangers: Comparison of the Euler-Euler model with experimental results Torsten Baumann
2 Chart 2 Thermal Energy Storage (TES) for CSP-Plants - Concentrating Solar Power (CSP) plants: - electricity from concentrated solar radiation - Thermal energy storage: - Load following electricity production, dispatchability of CSP-system - based on flowable particulates: allows cost-effective large-scale solutions, simultanous use as storage material and HTF steam cycle
3 Chart 3 Heat exchanger for discharge of granular bulk Moving Bed Heat Exchanger - Particles directly heated in Particle Receiver of CRS - Storage itself is simple: Hot/cold storage containers - But: - Discharge and supply of Rankine cycle requires a particle heat exchanger to run a Rankine or Bryton cycle - Not commercially available - In principle various technology options thinkable - MBHE promising - Design basis uncertain, with little flexibility
4 Chart 4 Challenges & Motivation Overarching aim Sizing of component and its system integration - Quality of heat transfer, i.e. temperature loss? - Required heat transfer area? - Max. size and # of modules? Problem - Determination of thermal performance mandatory for MBHEdesign - Thermal performance of MBHE directly depends on velocity distribution of the bulk - Flow behaviour of granular bulks differs from (Newtonian) fluids adequate determination of the flow field required Penetration theory proposed by Schlünder et al. Proceeding - Euler-Euler multiphase continuum approach to predict flow and heat transfer - Parametric studies: tube shape, bundle arrangement - Experimental validation of results E.-U. Schlünder, E. Tsotsas. Wärmeübertragung in Festbetten, durchmischten Schüttgütern und Wirbelschichten. G. Thieme-Verlag, Stuttgart-New York, 1988
5 Chart 5 Model basis: Mass and momentum - Euler-Euler multiphase continuum approach: - Considers both gaseous (air) and solid phase as interacting and penetrating continua Navier Stokes conservation equations to be solved for each phase - Regards kinematic, collisional and frictional effects of solid phase Continuity: (both phases) t ( α ρ ) + ( α ρ v ) = 0 q q Phase volume fraction q q q Interphase momentum exchange coefficient Momentum: (gas) Momentum: (solid) Stress tensor: (solid) Shear viscosity: (solid) µ + s = µ s, col + µ s, kin µ s, fr Stress tensor (solid) Solid phase velocity field Distribution of solid phase volume fraction Frictional viscosity: (solid) µ = s, fr ps sinφ 2 I 2D
6 Chart 6 Model basis: Energy - Euler-Euler multiphase continuum approach: - Considers both gaseous (air) and solid phase as interacting and penetrating continua Navier Stokes conservation equations to be solved for each phase - Regards kinematic, collisional and frictional effects of solid phase Energy: (both phases) t Heat transfer rate (interphase): Q Phase volume fraction p q ( α qρqhq ) + ( α qρquqhq ) = α q + τ q : uq qq + Sq + Qpq pq = h pq ( T Tq ) p t HT-coefficient (interphase): Heat boundaries: h qp q = k 6kqα pα q Nu = d ² SO p T n wall p Nusselt number via correlation (e.g. by Gunn) Temperature contour
7 Chart 7 Modelling of the MBHE design: Geometry study - Five MBHE-designs including three different tube shapes (circular, rhombic, oval) - Varying staggered tube arrangement (different horizontal tube pitches) - Minimal tube pitch (bundles B, D, E) and inclination angle (bundles C and D) determined from analysis of rheological bulk properties - Sintered Bauxite is considered as bulk material; inlet velocity 2 mm/s
8 Chart 8 Results: Thermal performance - High average heat transfer coefficients for narrow tube arrangements (B,D,E) - No improvement of HTC by rhombic tubes - Best heat transfer achieved for oval tubes thermal performance is mainly affected by flow distribution of the bulk, which in return is influenced by the tube shape and bundle arrangement
9 Chart 9 Results: Velocity distribution Bundle A Bundle B Bundle C Bundle D Bundle E - Higher velocity in narrow bundle designs due to cross section constriction - Formation of zones of low velocity (stagnant zones and voids) at circular tubes low local surface velocity insulating effect on heat transfer - Rhombic design prevents formation of stagnant zones, but exhibits lower average surface velocity than circular tubes higher contact time - No emphasized formation of stagnant zones or voids at the oval shaped tubes, high share of high velocity along the surface low contact time high HTC
10 Chart 10 Results: Volume fraction distribution rhombic circular oval rhombic circular oval - High mean velocity for circular and oval tubes - Solid volume fraction at circular tubes decreases close to the lower vertex - Particles tend to detach from the lower half of the rhombic surface - Integral solid packing at the oval tubes higher than for circular and rhombic tubes - High void fraction leads a decreased integral heat transfer coefficient (heat transfer wall/air is lower than for wall/bulk)
11 Chart 11 Final HX design for optimized performance Two different HX designs: a. Reference design, based on common 60 -triangle arrangement b. Adapted design, taking into account design parameters determined from analysis of rheological measurements critical opening width = minimum distance between adjacent tube walls Acrylic glass models (for flow examination) Tube pitch relates on critical opening width - Adapted design advantages: - High heat transfer rates due to high particle velocities at the tube wall - High HT-area to volume ratio compact design
12 Chart 12 Example case: assumptions Operating conditions & HX geometries MBHE modules - Cross-flow - Gravity-driven bulk flow - Staggered tube arrangement - Tube diameter of 26.9 mm - Adapted bundle :horizontal split ratio 1.37, based on analysis of rheological bulk properties Bulk material - Sintered bauxite and quartz sand - Ø 0.5 ; 0.8 mm - inner friction angle: 29 ; 33 - Restitution coefficient: 0.9 Operating conditions - Bulk 1 5 mm/s ; 0.44 Adapted bundle
13 Chart 13 Experiments Test Rig - Test bench allows integration of different MBHXs - Investigation of granular flow field inside HX - Investigation of thermal performance of HX - Caloric heat determined applying temperatures of the granular core flow - Outer heat transfer coefficient alpha computed in terms of overall heat transfer coefficient (NTU-method for crossflow HX) Quick facts Bulk loop Flow m³/h Heating power 35 kw Inlet temperature max. 600 C Oil loop Flow m³/h Temperature max. 300 C
14 Chart 14 Experiments Flow Measurements - Setup & method PIV-Setup Area of Interest Superficial bulk velocity vin = mm/s - Continuous mass flow inside the adapted tube bundle no arching appraised critical tube pitch suitable (same goes for the reference bundle) - Equally distributed flow
15 Chart 15 Experiments Flow Measurements - Results Velocity profiles along tube walls (normalized) Reference bundle Adapted bundle - Significant divergence (exp/sim) - Better consistence (exp/sim) - Exp: Much slower acceleration from upper vertex, max. lower half - - Max mid position Exp.: slight accelaration at lower half - Mean velocity up to 60% higher than in CFD Where do these effects come from?
16 Chart 16 Experiments Flow Measurements - Results Streamlines Reference bundle Adapted bundle - Overall particle velocity is potentially higher for adapted design with narrow arrangement - Tube bundle design significantly affects flow distribuion near the tube wall contact time and heat transfer - Specific dimension of stagnant zones cannot accurately be reflected by Euler- Euler model due to model inherent simplifications in continuum approach - Stagnant zones constrict free cross section between upper, adjacent tubes in reference bundle increased local velocity, lower half - Effect is minimized due to varied tube configuration in adapted bundle
17 Chart 17 Experiments Thermal Characterization Results - Heat transfer regressively increases with mass flux - Higher heat transfer coefficients for adapted tube bundle (up to 240 W/m²K) - Slightly better performance for operation with sintered bauxite
18 Chart 18 Experiments Thermal Characterization Results - Heat transfer regressively increases with mass flux - Higher heat transfer coefficients for adapted tube bundle (up to 240 W/m²K) - Slightly better performance for operation with sintered bauxite - Increase of heat transfer coefficient lower than expected from CFD-results: - Higher htc expected at higher mass fluxes according to penetration theory (approx kg/m²s, tc = 5 s)
19 Chart 19 Experiments Thermal Characterization Results Flowing bulk Particles trapped in stagnant zone h Void zone - Insulating effect of stagnant zone limits heat transfer at high massflux - Effect less pronounce at lower mass fluxes since contact time is high either way
20 Chart 20 Summary & conclusions - Narrow tube arrangement potentially increases thermal performance of MBHX - Experimental flow visualisation analysis shows good agreement with the computed results - Tube bundle configuration has significant influence on granular velocity distribution at tube walls, especially on stagnant zone formation - Drawbacks in accuracy of flow due to model-inherent simplifications in granular rheology - Despite insufficiency to accurately reflect discrete stagnant zones, the Euler-model is considered a solid basis for further MBHE parametric and design studies, specifically for moderate mass fluxes Outlook: - Identification and implementation of improved models for granular viscosity - Validation and further design studies (Simulations and Experiments)
21 Chart 21 Thank you! Torsten Baumann Institute of Technical Thermodynamics/ Thermal Process Technology German Aerospace Center Pfaffenwaldring Stuttgart (Germany) Phone:+49 (0)
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